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   Technology StocksRFID, NFC and QR code Technologies

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To: Glenn Petersen who wrote (1654)3/24/2016 3:03:17 PM
From: The Ox
   of 1712
The story that should have gone away but hasn't.....

Chip-Card Payment System Delays Frustrate Retailers

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From: Glenn Petersen4/19/2016 9:50:36 AM
   of 1712
Exclusive: Internet of Clothing Is Coming Through Huge Label Deal

by David Meyer
April 18, 2016, 5:29 AM EDT

Evrythng's vision of "smarter shoes" with digital identities. Evrythng Deal between Avery Dennison and Evrythng will see 10 billion pieces of apparel “born digital.”

Your clothes are going online.

Avery Dennison AVY 1.10% , a packaging and labelling giant that puts labels onto products from brands like Nike NKE 0.12% , Adidas ADDYY 2.72% and Hugo Boss BOSSY 5.18% , has struck a deal with “Facebook for things” firm Evrythng to create unique web identities for at least 10 billion pieces of apparel over the next three years.

Evrythng manages the digital identities of items, from packaging to smart lightbulbs, in much the same way as a social network manages the identities of people — keeping track of their latest “status” and ultimately helping to connect them. The deal with Avery Dennison will see these identities assigned to apparel, shoes and various accessories at the point of manufacture, creating use cases beyond the point of sale.

“This is probably the biggest deal the [Internet of things] industry has had,” Niall Murphy, the CEO of Cisco CSCO 1.04% and Samsung-backed SSNLF 5.00% Evrythng, told Fortune. “It’s a program we’ve been working on for quite a long time.”

Avery Dennison already adds basic individual identities to millions of products for supply-chain purposes, but this new arrangement, based on Avery Dennison’s new Evrythng-powered Janela “smart products” platform, creates opportunities for various kinds of interactions between consumers and those products.

You’ll be able to do things such as check the authenticity or manufacturing history of that shirt you just bought, participate in various after-sales loyalty schemes or recycling programs, connect with third-party apps, see exclusive smartphone content, and re-order products you like.

Meanwhile, the retailer will also be able to use the items’ identities for things like detecting fraudulently returned products.

Evrythng has been working with individual brands for some time, on various experiments to do with giving items of apparel their own digital identities. However, doing this by default at the point of manufacture means the brands don’t need to weigh up the benefits before deciding how to integrate the functionality.

“The digital capability is there, and it’s about figuring out how to use it most effectively,” said Murphy. “Products are able to be born digital.”

Evrythng’s main relationship here is with Avery Dennison, but it may also establish an ongoing relationship with the brands themselves, depending on what they need to do with those digital identities in the future.

Technologically speaking, things will start simple in most cases, with printed QR codes that the customer can scan with their smartphone to access a service or identify the piece of apparel.

However, that depends on the type of apparel, and tiny wireless chips using NFC or RFID technology will also often be part of the mix — for one thing, they would allow the product to generate extra data (think of Nike’s smart training shoes), and they clearly have implications for stock control.

“In the past, when we look at some of the technologies, QR codes and so forth, they were more for generic interactions,” Mitchell Butier, the CEO of Avery Dennison, told Fortune. “Consumers want a more personal relationship — they want to have product suggestions from the retailer based on what they personally want.”

With this kind of personal link, could we not end up with a lot of pieces of clothing that help track the wearer? What about the privacy implications?

“It’s clearly a fundamental concern,” said Murphy. “I think brands have an increasingly important responsibility to be transparent with the uses of the data that they’re providing. And clearly part of our role at Evrythng, managing very large amounts of information, is to provide the infrastructural integrity to ensure this data is well protected.”

Murphy added that no-one should be tracked without their consent. “Brands have to nurture trust with the consumer,” he said.

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From: Glenn Petersen6/3/2016 7:54:57 AM
1 Recommendation   of 1712
The still unprofitable Impinj has filed an S-1 registration statement:

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To: Glenn Petersen who wrote (1657)6/3/2016 11:59:44 AM
From: Ahda
   of 1712
Our adjusted EBITDA was $4.9 million and $4.8 million for 2014 and 2015, respectively RAIN spectrum is freely available in 78 countries representing roughly 96.5% of the world’s GDP and the RAIN They can just about buy one decent house in West Los Angeles. The Rain is the problem we ain't got any.

We sell our products and platform to retailers They should have a conference with Macy's CFO nettailers seem to be the future.

we have invested more than $160 million developing our platform. They should of bought houses in Vancouver sold today who needs an IPO.

Risks Related to Our Business and Industry

RAIN market adoption is uncertain. If RAIN market adoption does not continue to develop, or develops more slowly than we expect, our business will suffer. you have a little hope you are located in Seattle and it does get wet up there.

The RAIN market is relatively new and, to a large extent, unproven. RAIN technology and product adoption, including that of the Impinj Platform and Item Intelligence, will depend on numerous factors, including:

whether end users embrace the benefits we believe RAIN offers, and if so whether RAIN will achieve and sustain high demand and market adoption; The demand is there in CA the supply is not.

whether end users perceive that the benefits of RAIN adoption outweigh the cost and time to install or replace their existing systems and processes; and
True there is a surplus of urinals going to be interesting as non gender bathrooms increase. Standing room only good luck girls.

whether the technological capabilities of RAIN products and applications meet end users’ current or anticipated needs. Current is not the problem aniticipated can include frozen called snow.

We do not own or operate manufacturing facilities. Currently, all our tag ICs are manufactured by Taiwan Semiconductor Manufacturing Company Limited, or TSMC, and primarily post-processed by our subcontractor Stars Microelectronics (Thailand) Public Company Limited, or Stars; all our reader ICs are manufactured by Tower Semiconductors Ltd., or TowerJazz; and all our readers and gateways are manufactured by Plexus Corp., or Plexus, or Western Corporation. We also use subcontractors for post-processing, assembly and testing. We do not control our manufacturers’ or subcontractors’ ability or willingness to meet our supply requirements.

Currently, we do not have long-term supply contracts with TSMC, TowerJazz, Plexus or Western Corporation, and neither they nor our subcontractors are required to supply us with products for any specific period or in any specific quantity. Suppliers can allocate production capacity to other companies’ and re

We do contribute enormous sums to the politcal parties of our manufactures and subcontractors nations come to think of it that might of affected are bottom line adversely. There is a risk clause in this too.

To late for me to get in guess they are over subscribed Heavy use of the big R word in the entire S-1

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To: Ahda who wrote (1658)6/3/2016 11:22:49 PM
From: Ahda
   of 1712
The balance sheet to me is not excellent been in business about six years and cash flow now would be in the issue. The RFID technology is not unique but perhaps they might find a niche no one else has.

I am limited in tech but the Rain technology is very interesting to me and in certain cases perhaps could act as increased security. it seems it deposits pieces of information all over the place so it is not easy to walk in a grab and entire file.

I suppose that takes me to the robot field Walmart and counting inventory where the brain has to be small enough but the signal strong enough to be picked up quickly.

Rain and it's ability to sprinkle data might be a bonus for the medical field.

The financial end which I am more comfortable with is without a doubt risky.

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From: Glenn Petersen6/12/2016 10:07:48 AM
1 Recommendation   of 1712
Under My Skin: The New Frontier Of Digital Implants

"Biohackers" are putting microchips and magnets in their bodies for everything from unlocking the front door to detecting moon earthquakes.

Amal Graafstra's Hands
[Photo: courtesy of Amal Graafstra]

Steven Melendez
Fast Company
06.11.16 6:00 AM

Tim Shank can guarantee he’ll never leave home without his keys. Why? His house keys are located inside his body.

Shank, the president of the Minneapolis futurist group TwinCities+, has a chip installed in his hand that can communicate electronically with his front door and tell it to unlock itself. His wife has one, too.

"You have mental checklists as you’re coming and going out of your home," Shank says. "One of those things is my wallet, keys, all those things I have with me. Once you start to eliminate all those things, you start to see all the mind space it actually clears not to have to worry about them."

In fact, Shank has several chips in his hand, including a near field communication (NFC) chip like the ones used in Apple Pay and similar systems, which stores a virtual business card with contact information for TwinCities+. "[For] people with Android phones, I can just tap their phone with my hand, right over the chip, and it will send that information to their phone," he says. In the past, he’s also used a chip to store a bitcoin wallet.

Shank is one of a growing number of "biohackers" who implant hardware ranging from microchips to magnets inside their bodies.

Some biohackers use their implants in experimental art projects. Others who have disabilities or medical conditions use them to improve their quality of life, while still others use the chips to extend the limits of human perception. Shank, for instance, has experimented with a portable distance sensor that vibrates a magnet in his hand; it's like a sonar system that lets him sense how far away obstacles are. He also considered installing a chip that would track his body temperature. But not every use case is so ambitious—for some, the chips are merely convenient ways to store data and unlock doors.

Experts sometimes caution that the long-term health risks of the practice are still unknown. But many biohackers claim that, if done right, implants can be no more dangerous than getting a piercing or tattoo. In fact, professional body piercers are frequently the ones tasked with installing these implants, given that they possess the training and sterilization equipment necessary to break people’s skin safely.

"When you talk about things like risk, things like putting it in your body, the reality is the risk of having one of these installed is extremely low—it’s even lower than an ear piercing," claims Amal Graafstra, the founder of Dangerous Things, a biohacking supply company.

Amal Graafstra

Graafstra, who is also the author of the book RFID Toys, says he first had an RFID chip installed in his hand in 2005, which allowed him to unlock doors without a key. When the maker movement took off a few years later, and as more hackers began to explore what they could put inside their bodies, he founded Dangerous Things with the aim of ensuring these procedures were done safely.

"I decided maybe it’s time to wrap a business model around this and make sure that the things people are trying to put in their bodies are safe," he says. The company works with a network of trained body piercers and offers online manuals and videos for piercers looking to get up to speed on the biohacking movement.

At present, these chips are capable of verifying users’ identities and opening doors. And according to Graafstra, a next-generation chip will have enough on-board cryptographic power to potentially work with credit card terminals securely.

"The technology is there—we can definitely talk to payment terminals with it—but we don’t have the agreements in place with banks [and companies like] MasterCard to make that happen," he says.

Paying for goods with an implantable chip might sound unusual for consumers and risky for banks, but Graafstra thinks the practice will one day become commonplace. He points to a survey released by Visa last year that found that 25% of Australians are "at least slightly interested" in paying for purchases through a chip implanted in their bodies.

"It’s on the minds of people," he says. "It just needs to be brought to fruition."

Other implantable technology has more of an aesthetic focus: Pittsburgh biohacking company Grindhouse Wetware offers a below-the-skin, star-shaped array of LED lights called Northstar. While the product was inspired by the on-board lamps of a device called Circadia that Grindhouse founder Tim Cannon implanted to send his body temperature to a smartphone, the commercially available Northstar features only the lights and is designed to resemble natural bioluminescence.

Grindhouse founder Tim Cannon with his Northstar implant looking out over the skyline of Pittsburgh from Mt. WashingtonPhoto: Ryan O'Shea

"This particular device is mainly aesthetic," says Grindhouse spokesman Ryan O’Shea. "It can backlight tattoos or be used in any kind of interpretive dance, or artists can use it in various ways."

The lights activate in the presence of a magnetic field—one that is often provided by magnets already implanted in the same user's fingertips. Which brings up another increasingly common piece of bio-hardware: magnetic finger implants. Hackers say these small magnets allow users to sense the presence of electromagnetic fields, to diagnose electrical problems like faulty wiring, and even to pull small metal objects like paper clips and bottle caps toward you, making you into something of a low-rent Magneto. Despite the power of these implants, they're fortunately not strong enough to trip metal detectors, wipe hard drives, or interfere with MRI scans.

Tim Cannon's hand (right) minutes after implant with Justin Worst's healed Northstar implantPhoto: Ryan O'Shea

"Most [Northstar clients] already have the magnets," says Zack Watson, a piercer who installs implants for Grindhouse. "The magnets are kind of like a baby step into the heavy mod community. It’s not so much visible as it is modifying the body to get that magnetic vision, and then the byproduct is that you’re able to activate the implant."

According to O'Shea, a second-generation Northstar will include a Bluetooth transmitter and gesture-recognition sensors, which will let it communicate with a smartphone to control Internet of Things-type technology. That's not the only reason many early adopters may eventually choose to upgrade their implants. Another has to do with the limited battery life.

"[The device] will die, much like a pacemaker will die," he says. "When a pacemaker does die, it is removed in a procedure and is completely replaced with a new unit. That is similar to what will happen with Northstar."

Luckily for users, the Northstar can be inserted or replaced in about 15 minutes by a skilled piercer, says O'Shea.

"It’s just a small incision, usually in the side of the hand," he adds. "The skin is separated from the hand there, and the device is just inserted, and the skin is stitched up."

As long as they're inserted properly, the implants leave minimal scarring, says Watson. He has magnets in his hand that let him do "little parlor tricks" and pick up needles while he works. "My kids are convinced I have a magic finger," he says. Meanwhile, an RFID chip in his hand lets him unlock his phone and automatically load his Instagram portfolio for potential customers to see.

"My phone has a reader in it, and you’re able to use that reader to scan my hand," Watson says. "It’s a cool way to show off your work."

Grindhouse is also working on an enhanced version of the Circadia device that tracks founder Cannon’s body temperature. Cannon says that in the future, Circadia could potentially track other vital signs like blood oxygen, heart rate, and blood glucose. That, however, could pose tricky regulatory challenges for the company, he acknowledges, potentially bringing the device closer to medical sensors regulated by the Food and Drug Administration.

The line between medical devices and personal electronics has already begun to grow fuzzier. In recent months, the FDA has tentatively said it doesn’t want to impose the same red tape on "low-risk devices" like fitness trackers that it would impose on medical equipment. Even the White House has weighed in, saying it's exploring options to bridge the gap between expensive, regulated hearing aids and cheaper amplification or tracking tools technically not certified for medical use.

Grindhouse’s foray into blood sugar tracking would follow projects like the Open Artificial Pancreas System, which lets diabetes patients build their own automatic blood sugar regulation tools using a Raspberry Pi computer to talk to an insulin pump and a glucose monitor. Some in the biohacking community have already used custom-built tools to overcome other disabilities or limitations. Artist Neil Harbisson, for instance, who was born color blind, used an implanted antenna to translate colors into audible sounds.

O’Shea says Grindhouse isn’t at all opposed to regulation: The company already does extensive testing to make sure its products are safe and won’t break down in the body—not even after physical trauma—and would welcome regulations that ensure people don’t unwittingly put something toxic or otherwise dangerous into their bodies.

"With Northstar right now, if there’s something that you encounter that’s going to destroy the Northstar in your body, you’re probably already dead at that point," he asserts.

What the company doesn’t want to see, O'Shea says, is the same full-on regulation of medical devices brought to bear on implantable products like the Circadia, which could make them impractical for startups and hackers to develop and prohibitively expensive for many potential users.

Photo: Flickr user Yagmur Adam

"The issue with FDA regulations is not only does it take an expensive amount of time and money that many bootstrapped companies do not have access to, but it also limits the people who can do these procedures," O'Shea says. "We want these augmentative devices to be open to as many people as possible for as cheap as possible, so there aren’t people who can’t have access to this technology."

In the meantime, with implants essentially flying under the regulatory radar, hackers are exploring how they can use the devices to manipulate and receive input from the world around them without a great deal of scrutiny from government bodies.

One of these hackers is artist, dancer, and self-proclaimed cyborg Moon Ribas, who has an Internet-connected implant in her arm that vibrates to alert her to earthquakes around the world—information she can incorporate into her choreographed routines.

She hopes to add additional, more precise implants that would communicate the continent where the earthquake took place, and perhaps another that reports quakes on the moon.

"This would allow me to be here and be in space in the same time," she says.

Ribas is also working on a commercial implant that would let users feel a vibration when they face due north, potentially training them to develop a directional sense similar to some animals. That's a far cry from Tim Shank's comparatively unambitious door-unlocking implant.

"I like things that are related to nature, space, or animals," she says. "Everyone has his own interests—it’s just that it doesn’t fulfill me as much to think about having an implant to open a door."

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To: Glenn Petersen who wrote (1660)6/12/2016 10:40:11 AM
From: Ahda
   of 1712
it is a good article as bit coin and currency all have the problem of can it be replicated. I know not if the implant has a heat sensor or life sensor type thing as then if a portion of the body were detached to get into another persons account it would not work .

Stealing a credit card becomes minor when you have to steal the hand to get into the account.

The more progressive and innovative we become the more difficult it is to be assure secure.

I was thinking that when metal was currency the metal had a value. Then the metal had an asset value on its own that could end up being more valuable than the currency it represented,

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To: Ahda who wrote (1661)6/12/2016 3:10:08 PM
From: HerbVic
   of 1712
There is a bit of social engineering aspect to using implants to make mobile debit transactions. Ostensibly, the main attraction of being a thief is easy gains, a parasitic shortcut to ownership of property and financial security. If society takes away the parasitic 'easy' then the new 'easy' becomes the non parasitic means of legitimate service, barter or commercial endeavor that the former thief is already familiar with when operating outside their previous professions. Then society would be left with only thieves who are drawn to it for the risky behavior excitement value.

However, the use of fingerprint ID sensors built into secure devices, like iPhones (more devices to come later), fulfills the same need remarkably well, and negates the need for specialized RFID implants for mobile debit transaction verification. And potentially, stealing the phone without the fingerprint, is as useless as stealing the credit card without the RFID implant.

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To: Ahda who wrote (1661)6/12/2016 3:26:46 PM
From: Glenn Petersen
   of 1712
Implanting chips into humans was a controversial subject when this board was started 12 plus years ago. Less so now. Biohacking has become quite the rage.

Biohackers implant computers, earbuds and antennas in their bodies

By Jurica Dujmovic
Published: Feb 10, 2016 10:47 a.m. ET

They’re trying to improve human performance — to be smarter, more capable

Body implants are a staple of science fiction. They turn members of futuristic societies into super-humans, making them stronger, smarter and more capable than an average person.

Implants helped Johnny Mnemonic increase his memory capacity; they fuel Iron Man’s suit and keep him alive; and they do much, much more.

As amazing as body implants sound, though, how close are we normal humans to getting one of those? In other words, are contemporary science, medicine and technology advanced enough to allow us to seamlessly meld with the technology and actually improve our lives? Keep reading to find out.

We’ll start by introducing Northstar, a subdermal LED sensor that lights up when it’s in the vicinity of a magnet. It can be used to detect the magnetic north and act as a compass. Implanting such a basic device may sound like a silly and needlessly dangerous procedure to go through, but these biohackers did it anyway.

Ryan O’Shea/Grindhouse Wetware

Before dismissing it for being an “LED tattoo,” note that the device, dubbed Northstar V1, is still in its first iteration. The next version due to be released sometime this year will allow users to control the device via hand gestures. Grindhouse Wetware, the company behind the product, acknowledges that Northstar may seem like a simple gadget, but its purpose is to be much more than just subdermal bling — it exists to “prove the possibility of implanting technology in the human body, and will pave the way for more advanced and functional augmentations.”

Enrique Calvo/Reuters

If you think having LEDs in your forearm is silly, you may like this better: an antenna implanted in the skull. In 2004, Neil Harbisson had the device implanted in his cranium in an effort to fight color blindness. A camera at the far end of the device records whatever he is seeing and converts the image color data into a series of sound waves, which he has memorized. Instead of seeing various hues, he “hears” them with the help of a camera he calls Eyeborg.

Speaking of senses, here’s one implant that gave Rich Lee, a biohacker, one sense that humans usually don’t have: the power of echolocation.

Rich Lee

Can you spot it? The implant is in his earlobe! To be more specific, within the tragus, the fleshy protrusion in front of the ear opening. On both of his ears are tiny magnets that Lee uses to listen to music without earbuds ( here’s how) and sense objects in his vicinity. He achieved echolocation by converting data from an ultrasonic range finder (a device used to determine how far away an object is) into audio, which he then sends wirelessly to his headphone implants.

If you had trouble seeing magnets in Lee’s ear, I reckon this one will be much easier to spot. That huge lump under this biohacker’s skin is actually a bulky biometric computer that’s capable of transmitting body temperature and pulse data wirelessly. While using a simple thermometer seems like a much better idea than having an electronic device inserted under your skin (without local anesthesia), the company behind it (yet another Grindhouse Wetware project) says that the device (Circadia) is merely in the early stages of development. Many more features are coming soon — hopefully a more compact size will be one of them.

John Rogers, University of Illinois

If these implants seem too much, here’s something a bit lighter — and in my opinion, much closer to mass adoption: flexible, wireless tattoos that can be used to track vital body stats. Data about sweat (which can be used to assess the metabolic health of the wearer), heart rate and more are captured by the tattoo and then sent wirelessly to a device, such as a mobile phone or a computer. Although these tattoos aren’t exactly implants (they are non-invasive and can be easily removed), they still prove that the integration between the human body and technology isn’t something that’s easily dismissed.

If you’re like me, many of these implants will make you cringe. They seem crude, basic and impractical. Biohackers may seem like people who don’t care much about their health or safety. Experiments they’re currently conducting seem to show just undeveloped biohacking is and how little it can do for us — for the time being.

However, there’s a different side to this story. If history has taught us anything, it’s that even the greatest inventions had humble beginnings. Seeing the recordings of the first planes trying to take off invokes exactly the same thoughts about the pioneers of flight. Were they brave or foolish? Were their machines laughable or simply in “early development”? If it weren’t for them, we wouldn’t have planes today.

Does the same apply to biohacking? Only time will tell. Until then, we’ll keep a close eye on the biohacking community and perhaps one day become a part of it. What do you think about these implants and biohacking in general? Please let me know in the comments below.

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To: Glenn Petersen who wrote (1663)6/12/2016 4:48:00 PM
From: Ahda
   of 1712
In the field of neuro science some day the benefits I hope will be enormous. The brain controls the body and the key is to aid control of the brain. Fabulous to think of the body ridding itself of parts that are not working properly or creating new parts minus the surgical procedure.

In the field of entertainment I can visualize a series of wires intertwined with tattoos the bearer of said walks into a toy shop lights up totally and walks out with every magnetic toy in the store attached to him.

Of course if the antennae pop up like rabbit ears the mall would empty out pretty quick,

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